Abstract: An apparatus and system are provided for simultaneously analyzing a plurality of analytes anchored to microparticles. Microparticles each having a uniform population of a single kind of analyte attached are disposed as a substantially immobilized planar array inside of a flow chamber where steps of an analytical process are carried out by delivering a sequence of processing reagents to the microparticles by a fluidic system under microprocessor control. In response to such process steps, an optical signal is generated at the surface of each microparticle which is characteristic of the interaction between the analyte carried by the microparticle and the delivered processing reagent. The plurality of analytes are simultaneously analyzed by collecting and recording images of the optical signals generated by all the microparticles in the planar array.

Abstract: The invention relates to a system, comprising: a) a sample processing unit, comprising an input port and an output port coupled to a rotating container having at least one sample chamber, the sample processing unit configured provide a first processing step to a sample or to rotate the container so as to apply a centrifugal force to a sample deposited in the chamber and separate at least a first component and a second component of the deposited sample; and b) a sample separation unit coupled to the output port of the sample processing unit, the cell separation unit comprising separation column holder (42), a pump (64) and a plurality of valves (1-11) configured to at least partially control fluid flow through a fluid circuitry and a separation column (40) positioned in the holder, the separation column configured to separate labeled and unlabeled components of sample flowed through the column.

Abstract: This invention relates to a lignin sorbent, a lignin removal unit, a biorefinery, a process for removing lignin, a process for binding lignin, and a renewable material. The lignin sorbent includes a substrate, and a lignin binding material dispersed with respect to the substrate. The lignin binding process includes the step of adding a lignin binding material to an input stream, and the step of converting the input stream into a renewable material.

Abstract: The invention provides a cassette-based automated assay for homocysteine.

Abstract: The present invention includes a magnetically susceptible polymer component, a method of making the same, and apparatuses and systems for mixing, separating or localizing a magnetically susceptible polymer compound in a reaction. The magnetically susceptible polymer component includes a polymer and a magnetically susceptible particle of a predetermined size, which yields a component having a much-improved magnetic reactivity due to the increase in magnetic material by mass percentage. The apparatuses and systems of the present invention employ controllable magnetic fields distributable in perpendicular directions in order to precisely control the orientation, position and relative motion of any magnetically susceptible components within a reaction vessel.

Abstract: The invention relates to a light source for irradiating molecules present in a detection volume with one or more selected wavelengths of light and directing the fluorescence, absorbance, transmittance, scattering onto one or more detectors. Molecular interactions with the light allow for the identification and quantitation of participating chemical moieties in reactions utilizing physical or chemical tags, most typically fluorescent and chromophore labels. The invention can also use the light source to separately and simultaneously irradiate a plurality of capillaries or other flow confining structures with one or more selected wavelengths of light and separately and simultaneously detect fluorescence produced within the capillaries or other flow confining structures. In various embodiments, the flow confining structures can allow separation or transportation of molecules and include capillary, micro bore and milli bore flow systems.

Abstract: Systems and methods are presented for the purification of a biogas. The systems comprise: a gas processor for reducing CO2, volatile organic compounds, and H2S in the biogas, the gas processor comprising a scrubber tank and a scrubber liquid; and a scrubber liquid processor in fluid connection with the gas processor for reducing the amount of absorbed gas in the scrubber liquid. The scrubber liquid processor comprises a stripper tank, and is configured to reduce or eliminate airflow through the stripper tank.

Abstract: According to one embodiment, the disclosure provides a system for algal cell lysis. The system may include at least one algal cell, a plurality of metal nanoparticles, and an electromagnetic radiation generator. The generator may be able to generate radio frequency or microwave radiation that excites the plurality of metal nanoparticles, resulting in lysis of the algal cell. The disclosure also provides a system for recovery of a lipid from an algal cell similar to the above system but also including a separator. The disclosure further provides a method of recovering a lipid from an algal cell by supplying a plurality of metal nanoparticles to at least one algal cell, exciting the plurality of metal nanoparticles with radio frequency or microwave electromagnetic radiation, lysing the algal cell to release the lipid, and separating the lipid from the lysed algal cell.

Abstract: A technique is disclosed for performing sequencing of polymers such as DNA and RNA. A sample containing multiple sites to be sequenced is cyclically subjected to attachment of nucleotides, and imaging. A digital mask corresponding to sites of interest in the sample array is generated and image data for the sites is processed differently from image data not corresponding to sites of interest. The latter may be discarded during the sequencing operation. The use of the mask improves computational efficiency and reduces memory allocated for the image data during sequencing.

Abstract: Disclosed is an assay device for the determination of the presence and/or extent if an analyte in a liquid sample over an extended concentration range comprising a first assay and a second assay, wherein the first assay for an analyte comprises a first flow-path having a sole detection zone capable of immobilizing a labelled binding reagent and the second assay for said analyte comprises a second flow-path having a sole detection zone capable of immobilizing a labelled binding reagent, wherein the presence of labelled binding reagent at the detection zones provides an indication of the presence and/or extent of analyte in said liquid sample.

Abstract: Methods and devices for biological sample preparation and analysis are disclosed. A device may have a linear or circular arrangement of containers, with a connecting structure such as a bar or disk. Fluidics channels between containers allow the performance of different techniques for sample preparation, such as lysing, washing and elution. Different functional elements, such as grinders or mixers, may be attached to the containers.

Abstract: A perfusion device and method is provided. In one embodiment, the device includes a container having a first internal chamber configured to hold the material; a port for introducing the liquid into the chamber; a vent for releasing gas and liquid from the chamber; and a means for sealing the vent to allow a vacuum to be drawn on the first chamber The material may be biomaterial, such as a bone graft material in any form. In one embodiment, the container is a syringe that defines the internal material chamber and includes an end cap and a plunger. The vent may be formed by a venting passageway in plunger and/or cap in some embodiments. In one embodiment, the vacuum may be created by a medical syringe coupled to the container, and which in some embodiments may also be used to deliver the liquid into the container. The liquid may be bone marrow aspirate in some embodiments.

Abstract: Systems, devices, and methods for delivering a biological material into an organelle of a cell are provided. In one aspect, for example, a method for introducing biological material into an organelle of a cell can include bringing into proximity outside of a cell a lance and a preselected biological material, charging the lance with a polarity and a charge sufficient to electrically associate the preselected biological material with a tip portion of the lance, and penetrating an outer portion of the cell with the lance and directing and inserting the lance into the cell but outside of the organelle. The method can further include discharging the lance to release at least a portion of the biological material, charging the lance with an opposite polarity and charge sufficient to electrophoretically drive at least a portion of the biological material into the organelle, and withdrawing the lance from the cell.

Abstract: Disclosed are devices and methods for encapsulating living cells, microencapsulated cells produced by the disclosed devices and methods, as well as methods of using the disclosed microencapsulated cells.

Abstract: The present invention disposes a membrane between two electrical conductive walls having a height at least as great as the thickness of the membrane. The conductive walls are fabricated on an electrically insolative chip base. The chip base has one or more through hole between the electrically conducting walls. The chip is placed inside a container having a well below the through hole of the electrically insolative base. At least one passageway extends from the well to the periphery of the container. This invention probes changes of the membrane as an in-plane electric field is applied between the conductive walls. The well may include various compounds while-other compounds can be placed in contact with the top of the membrane. The passageways are used to introduce substances into and out of the well.

Abstract: A fluid delivery system having a rotating reservoir insert and a cartridge body. The rotating reservoir insert having a plurality of reservoirs in communication with ports on the external surface of the insert. The ports are positioned such that upon rotation the port is in-line with a fluid extracting device, such as a syringe, capable of extracting fluid from the reservoir.

Abstract: A avian cell line that supports replication of animal or human viruses, which cell line is adapted to animal-product free growth. The cell line is useful for propagating a virus suitable as a live or a killed vaccine and for virus isolation and diagnostic assays.

Abstract: The invention is directed towards methods and compositions for identifying the amount of hydrofluoric acid in a buffered oxide etching composition. In buffered oxide etching compositions it is very difficult to measure the amount of hydrofluoric acid because it has varying equilibriums and it is toxic so it hard to handle and sample. When used to manufacture microchips however, incorrect amounts of hydrofluoric acid will ruin those chips. The invention utilizes a unique method of spectrographically measuring the hydrofluoric acid when in contact with added chromogenic agents to obtain exact measurements that are accurate, immediate, and safe.

Abstract: The present technology provides for a microfluidic substrate configured to carry out PCR on a number of polynucleotide-containing samples in parallel. The substrate can be a single-layer substrate in a microfluidic cartridge. Also provided are a method of making a microfluidic cartridge comprising such a substrate. Still further disclosed are a microfluidic valve suitable for use in isolating a PCR chamber in a microfluidic substrate, and a method of making such a valve.

Abstract: The invention relates to a device for determining an analyte in a liquid sample. The inventive device consists of: a capillary action means, involving lateral migration, defining a reference capillary action direction and comprising a liquid sample deposit area and an analytedetection area which is disposed downstream of the deposit area; a first analytespecific binding reagent which is conjugated to a visible and/or measurable marker and which is free to migrate when wet by means of capillary action in the abovementioned capillary actions means along the reference direction; and a second analytespecific binding reagent which is immobilized in the detection area. The invention is characterized in that the detection area comprises the analyte or an analogue of the analyte, which is immobilized and disposed at a distance from the second specific binding reagent.

Abstract: A bioreactor device, and a method and system for fabricating tissues and growing cells and tissues in the bioreactor device, accommodates less than about 1 mL (or less than about 200 ?L) of local medium volume but sample sizes of about 100 ?L or greater. The bioreactor device includes a bioreactor chamber for containing a sample, where sample growth in response to mechanical, electrical, and biofactor stimulation is monitored through one or more optical ports. Embedded sensors are provided for measuring fluid pressure, pH, temperature, and oxygen tension. The bioreactor device can receive different types of mechanical loadings, including fluid shear, hydrostatic pressure, matrix compression, and clinorotation.

Abstract: The process for isolating live cells on a filter or extracting their genetic material. The process comprises the steps of attaching, at least temporarily, a filter to a lower opening of a compartment having, in addition, an air inlet; inserting into the compartment a liquid carrying the cells; and attaching, in an impermeable manner, a needle, at least temporarily, to the compartment opening, the filter being positioned between the needle and the interior volume of the compartment. The process further comprises the steps of perforation, with the needle, of a plug of a vacuum tube with negative pressure relative to ambient pressure; and aspiration, by means of negative pressure from the vacuum tube, of the liquid through the filter, the filter retaining the cells.

Abstract: The invention concerns a device for preparing a body fluid for a bacteriological analysis thereof comprising a container provided with a chamber (4) wherein a piston (5) is mobile between an opening position and a closing position, the chamber (4) including a separation zone (7) and means for introducing (15, 16) a fluid into said chamber and the piston (5) including a closure means (8) co-operating with the separation zone (7) so as to define an upper volume (9) and a lower volume (10) on either side of said zone, the upper volume (9) and the lower volume (10) mutually communicating when the piston (5) is in opening position and being tightly isolated from each other when the piston (5) is in closing position. The invention also concerns a preparation method using such a device (1).

Abstract: The present invention relates to systems and methods for minimizing or eliminating diffusion effects. Diffused regions of a segmented flow of multiple, miscible fluid species may be vented off to a waste channel, and non-diffused regions of fluid may be preferentially pulled off the channel that contains the segmented flow. Multiple fluid samples that are not contaminated via diffusion may be collected for analysis and measurement in a single channel. The systems and methods for minimizing or eliminating diffusion effects may be used to minimize or eliminate diffusion effects in a microfluidic system for monitoring the amplification of DNA molecules and the dissociation behavior of the DNA molecules.

Abstract: Characteristics of a chemical or biological sample are detected using an approach involving light detection. According to an example embodiment of the present invention, an assaying arrangement including a light detector is adapted to detect light from a sample, such as a biological material. A signal corresponding to the detected light is used to characterize the sample, for example, by detecting a light-related property thereof. In one implementation, the assaying arrangement includes integrated circuitry having a light detector and a programmable processor, with the light detector generating a signal corresponding to the light and sending the signal to the processor. The processor provides an output corresponding to the signal and indicative of a characteristic of the sample.

Abstract: Provided is a method of focusing particles. The method includes: providing a suspension of the particles in a suspending medium; and flowing the suspension along a channel, such that the flowing suspension occupies a certain volume that has at least one cross-sectional dimension smaller than 100 ?m. The suspending medium has such viscoelastic properties, that flowing the suspension in the channel directs at least some of the particles towards a focus region, enclosed in said certain volume.

Abstract: The present invention disclosed a nano-electrode based transparent chip, which is applicable to perform a micro fluidic substance diffused through a specific region of a single cell membrane by localized electroporation technique with membrane reversibility. The chip comprises a silicon-based layer, different structural layers, an insulating layer and a micro fluidic layer. When the individual single cell was placed on the gap between a plurality of triangular-shaped nano-electrodes with nano-tip, then electric field can intense on a specific region of the individual single cell causes the formation of nano-pores on the membrane, resulting to deliver drugs, DNA molecules from outside of the cell to the inside of the cell with a high transfection rate and a high cell viability. This technique not only generates well-controlled nano-pores to allow rapid recovery of the cell membrane, but also provides clear optical path for potentially monitoring/tracing the drugs into the cell.

Abstract: Nanostructures on substrates include one or more nanofeatures having unscathed walls and width dimensions of forty-five nm or less. The nanofeatures may include at least one of a nanotrench, nanocapillary, nano-chemical pattern, and nanowire. The nanostructures may include a nano object with a pattern of nano elements. A nano system may include at least one nano system device, which may include at least one nanofeature. A method of forming nanofeatures on substrates includes placing a nano-templating element on the substrate. A masking material is deposited at an acute angle to form shadow gaps on shadowed regions of the substrate. The nano-templating element, the angle, and other factors may be selected to form shadow gaps having width dimensions less than 10 nm. The substrate may be chemically modified in the areas corresponding to the shadow gaps to create nanofeatures with unscathed walls having width dimensions of less than 10 nm.

Abstract: A cell separation apparatus comprises a means for moving a cell within a cell separating space by applying an electrical voltage to cells in the cell separating space using gel electrodes, and channels for separating and discharging the cell, which thus does not damage a cell sample and prevents the exhaustion of an electrode due to its electrolysis.

Abstract: A system and method for analyzing nucleic acids is presented herein. The system can include a nanowire assembly including a plurality of nanowires. In some embodiments, at least two nanowires can be coupled to a different probe corresponding to a different sequence version of a polymorphism. The system can include a reagent delivery system capable of delivering a template polymorphic nucleotide, an extension nucleic acid, and an enzyme to the nanowire assembly. The system can include an electrical detector configured to measure an electrical characteristic of the nanowire assembly and/or a controller in communication with the reagent delivery system. In some embodiments, the electrical detector can be configured to collect data corresponding to changes in the electrical characteristic in response to contact with the template polymorphic nucleotide, the extension nucleic acid, and the enzyme.

Abstract: The present invention relates to a device for collecting and concentrating biological or chemical targets with a view to detecting same, wherein the device comprises a reaction chamber (1) in which functionalized magnetic beads (2) are placed, an ultrasonic agitation system (3), a magnetic field (4) that can be activated (ON position) or inactivated (OFF position), and a fluid movement system (5) for feeding (51) and discharging (52) a portion or the entirety of the contents of the reaction chamber. The present invention also relates to a method for capturing biological or chemical targets using said device.

Abstract: Apparatus for immunoassay includes: a cartridge, including at least one test unit; a pin-film assembly, having a second sealing film, a plurality of pierce mechanisms, and a first actuation unit; a plurality of magnetic particles; at least one first magnetic unit; and at least one second magnetic unit. The test unit includes a plurality of fluid chambers, a plurality of pin chambers, a microchannel structure, a buffer chamber, a detection chamber and a waste chamber. The first actuation unit drives the pierce mechanisms to enable a working fluid to flow into the detection chamber storing the magnetic particles. As the second magnetic unit has a magnetic force larger than that of the first magnetic unit and can move reciprocatingly between a third position and a fourth position, the magnetic particles are driven to move reciprocatingly inside the detection chamber, thereby fully mixing the magnetic particles with the working fluid.

Abstract: Systems and methods of identifying, sequencing and/or detecting nucleic acid polymers, as well as related components (e.g., substrates, software and the like) are disclosed.

Abstract: A method and device for periodically perturbing the flow field within a microfluidic device to provide regular droplet formation at high speed.

Abstract: Provided are a PCR module and a multiple PCR system using the same. More particularly, provided are a PCR module with a combined PCR thermal cycler and PCR product detector, and a multiple PCR system using the same.

Abstract: The present invention provides a method for the real-time continuous monitoring of a change or density and/or viscosity within a test sample. Such methods can be used to determine the occurrence of a chemical reaction within a test sample where the same causes and increase or decrease in the density and/or viscosity of the sample due to, for example, a gelation, precipitation or coagulation occurring within the test sample. There is further provided a multi-resonator apparatus for use in measuring the density and/or viscosity of a test sample in which the multi-beam resonator is immersed.

Abstract: A micro channel for recovering nucleic acid from a biological sample treated with a chaotropic ion, include an integrated portion composed of silica micro beads having a pore size of from 6 to 29 nm is formed in the channel.

Abstract: Disclosed are a method for detecting a biomolecule including: immobilizing a nucleic acid aptamer capable of specifically binding to a biomolecule to be detected on the surface of a bead on which fluorophores are arranged; hybridizing the nucleic acid aptamer with a guard nucleic acid (g-nucleic acid) labeled with a quencher to quench fluorescence; and reacting a sample including the biomolecule to be detected with the nucleic acid aptamer and detecting a fluorescence signal emitted as the biomolecule binds with the nucleic acid aptamer and the g-nucleic acid labeled with the quencher is separated, and a device for detecting a biomolecule for conducting the detection method. The present disclosure allows for effective, convenient and fast detection of the biomolecule to be detected, enables quantitative analysis, and enables detection of even a trace amount of sample.

Abstract: The invention provides a method for preparing cell populations with anti-tumor immune response activity, which includes co-culturing tumor and mononuclear cell in a three-dimensional cell culture device, separating and amplifying the cell populations with anti-tumor immune response activity from the cultures. The present invention, at the same time, discloses the cell populations with anti-tumor immune response activity obtained by the method and the kit comprising the cell populations.

Abstract: Method of detecting molecules, using a sensor having a membrane layer having parallel pores extending through the membrane layer and incorporating therein probe molecules that bind with corresponding target molecules when present in the pores, electrodes, and an ionic solution in contact with the electrodes and the pores, wherein the electrodes are energized to induce an electrical current in the solution through the pores, wherein the electrical current induces an electrical parameter in the electrodes that is indicative of a through-pore electrical impedance of the pores, wherein the through-pore electrical impedance is increased when there is probe-to-target molecule binding in the pores relative to when there is an absence of such binding.

Abstract: The subject of this invention is a process for detection of analytes from biological samples comprising the following process steps: a) Preparation of a reversible binding partner 1 that is immobilized on a solid phase, to which an analyte binder is reversibly bonded via a reversible binding partner 2 that is bonded to the analyte binder, whereby the analyte binder is immobilized by binding between the reversible binding partners 1 and 2, b) Addition of the biological sample and binding of the analyte to the reversible immobilized analyte binder in the case that the biological sample contains the analytes, c) Separation of the biological sample, d) Addition of a dissolving buffer, which dissolves the binding between the reversible binding partners 1 and 2, whereby the binding of the analyte to the analyte binder remains optional, and e) Detection of the analyte in the dissolving buffer in the case that the biological sample contains the analytes and determination of the absence of the analyte in the case t

Abstract: Methods, apparatuses, and systems for collecting samples using hybrid porous materials that include an organic material and an inorganic material. A method for sample collection includes contacting a hybrid porous material and a biological sample to the porous material. The hybrid porous material includes an inorganic material and an organic material. The method includes placing the porous material with the attached sample in a liquid medium, wherein the sample is separated from the porous material in the liquid medium to form a separated sample, and collecting the separated sample in the medium.

Abstract: Droplet actuator devices and methods for immunoassays and washing are provided. According to one embodiment, a method of providing a droplet in contact with a surface of a super paramagnetic bead with a reduced concentration of a substance is provided and includes: (a) providing a super paramagnetic bead in contact with a droplet comprising a starting concentration and starting quantity of the substance and having a starting volume; (b) conducting one or more droplet operations to merge a wash droplet with the droplet provided in step (a) to yield a combined droplet; and (c) conducting one or more droplet operations to divide the combined droplet to yield a set of droplets. The set of droplets includes: (i) a droplet in contact with the super paramagnetic bead having a decreased concentration of the substance relative to the starting concentration; and (ii) a droplet which is separated from the super paramagnetic bead.

Abstract: Methods and systems for processing samples fixed to a porous substrate generally comprising, a compressor defining one or more fluid isolation areas, a support, for the porous substrate, having an opening corresponding to one or more of the fluid isolation areas of the compressor, an actuator that causes at least a portion of the compressor to press against the porous substrate, a fluid inlet having access to the fluid isolation area at least when the compressor is pressed against the porous substrate, and a fluid outlet to receive fluid, through the opening in the support corresponding to the fluid isolation area of the compressor, at least when the compressor is pressed against the porous substrate.

Abstract: The invention provides a device for preparing a fluid sample, including but not limited to a sample comprising genomic DNA.

Abstract: A system and method for preparing and analyzing samples. The system can include a sample preparation system and a sample detection system coupled to the sample preparation system. The sample preparation system can include a deformable self-supporting receptacle comprising a reservoir adapted to contain a liquid composition comprising a source and a diluent. The sample detection system can be positioned in fluid communication with the reservoir, and can be adapted to analyze a sample of the liquid composition for an analyte of interest. The system can further include a fluid path defined at least partially by the reservoir and the sample detection system. The method can include applying pressure to the deformable self-supporting receptacle to move a sample of the liquid composition in the fluid path to the sample detection system, and analyzing the sample for the analyte of interest with the sample detection system.

Abstract: The present disclosure describes use of filamentous algae to form insulating construction materials which provide thermal and noise insulation. Algae from the order Zygnematales, the Cladophorales, or the Ulotrichales can be dried and formed for use as insulating material. Algae mass can be combined into several layers, using a binder to attach the layers to each other. A composite material of algae mass and an additive can be used and form the body of insulation panels having honeycomb-shaped chambers, which are sealed by a foil that is laminated onto the body. Various plants for cultivating algae for use in construction material are disclosed. Plants utilizing gravity harvest comprise cultivation ponds located at a slope, wherein the ponds can be opened to allow algae and water to flow downhill through a collector grill. Plants utilizing net harvest, overflow harvest or rake harvest are described.

Abstract: The invention relates to a method for determining a concentration of ligands in an analyzed sample. The inventive method consists in immobilizing receptors specifically boundable with said ligands on a support. At least one measured value of the occupation of the support surface by the receptors is determined by means of a sensor for the surface occupation. Afterwards, the sample is put in contact with the receptors. At least one measured value of the frequency of liaisons between the ligands and the receptors is determined by means of at least one detector. The concentration of ligands in the sample can be determined with the aid of the measured values of the occupation of the surface and frequency of ligands/receptors liaisons.

Abstract: A multilayered optical sensing patch, for the measurement of conditions, such as pH, oxygen level, etc, within containers, is provided. The multilayered optical sensing patch of the present invention is comprised of a heat sealable polymer substrate layer, and a polymeric sensing membrane later attached thereto. The polymer sensing membrane layer is formed of a porous polymer support membrane, and an optical sensing composition (comprising a reactive indicator) covalently bonded thereto. The heat sealable polymer substrate layer is capable of being securely bonded to the inner layer of bioreactor bags, as well as the porous polymer support substrate layer. Further, the porous polymer support membrane layer provides a firm supporting structure for the polymeric sensing layer, thereby protecting the optical sensing composition disposed therein from degradation/damage.

Abstract: A system for generating a slicing scheme for slicing a specimen is disclosed. A parameter unit (1) is arranged for determining at least one parameter of a lesion in a specimen, based on an image dataset (14) representing at least part of the specimen. A slicing scheme unit (2) is arranged for determining a slicing scheme (15) for pathologic examination of the specimen, based on the at least one parameter. A specimen preparation unit (3) is arranged for determining a slicing preparation protocol, based on the image dataset, wherein the slicing preparation protocol comprises a representation of preparation steps relating to the specimen. A segmentation unit (5) is arranged for segmenting the lesion in the image dataset (14), wherein the parameter unit (1) is arranged for determining the at least one parameter, based on the segmented lesion.